Machine for the manufacture of cams



Jan. 9, 1945. G; Amos 2,366,993

MACHINE FOR THE MANUFATURE 0F CAMS Filed July 24; 1943 v 4 Sheets-Sheet 1 1 22 liil f mun aum mm. mlllv INVEN TOR. GEoecEA/Vros.

WQM

In r ATTORNEYS.

Jan. 9,1945.

G. ANTOS MACHINE FOR THE MANUFACTURE OF CAMS 4 Sheets-Sheet 2 Filed July 24, 1943 flax 3px 4&1 hmrra/e/ifrz Jan; 9, 1945 m-os 2,366,993

MACHINE FOR THE MANUFACTURE OF CAMS Filed July 24, 1945 4 Sheets-Sheet '5 F m I ks B3 & N @v I x l\ i n I I \2 Q H M R Q N z\ 2 INVENTOR.

$4 GEoecEAn/ras. 3 BY M 1 4 4,! w v. Q hlmr amvEns.

INVENTOR.

#1416206 1 11! hr;- ATTORNEYS.

Jan. 9, 1945. e. ANTOS v MACHINE FOR THE MANUFACTURE OF CAMS k0 hwkuat IIIIIL T lmai b5 SmE u Q5 mhl k axuwik BY GEORGE/4N 7'05.

- Patented Jan. 9, 1945 UNITED. STATE s PATENT OFFICE MACHINE FOR THE MANUFACTURE OF CAMS Application July 24, 1943, Serial No. 496,023

zociaims. (c1. Bil-13.9)

This invention relates to machines for the manufacture of cams, particularly cams such as are used on automatic screw machines.

The present invention is "a continuation in part, of my copending application Serial No. 447,214, filed June 16, 1942, for"Lathe attachment for machining cams for automatic screw machines.

An object of the invention is to provide simple and practical mechanism for outlining or forming cams of various shapes.

Another object is to provide such mechanism which-can be readily set to produce cams of different. configurations.

Another object is to provide such mechanism which may be adapted to and operated as an attachment for a lathe or other machine.

The invention consists in the novel features,

arrangements and combinations of parts em-.

bodied by way'of example in the devices hereinafter described as illustrating preferred forms of the invention, and the invention will be more particularly pointed out in the appended claims. Further objects, features and advantages of the I invention will morefully appear from the following specification and claims taken in connection with the accompanying drawings, in which: Fig. 1 is a side elevation illustrating the principal features of one embodiment of the invention.

Fig. 2 is a partial plan view, illustrating further details of said embodiment.

. Fig. 3 is a partial endview and cross section as on substantially the plane of line 33 of Fig. 1. Fig.4 is a partial slde'elevation illustrating the opposite side of the machine from that shown in Fig. 1.

Fig. 5 is a detail view illustrating a-modified form of adjustable abutment for mounting in the tail stock of a lathe.

Fig. 6 is a side elevational view of another embodiment of the invention.

Fig. 7 is a plan view ofa detail of Fig. 6.

Fig. 8 is a cross-sectional view taken at 8-8 of Fig. 6.

Fig.9 is an end elevation of in Fig. 6.

Fig. 10 is a plan view of the device shown in- Flgs. 6 and 9. v

Figs. 11, 12, 13 and 14 are partiallydiagrammatic views illustrating certain features of the invention embodied in Figs. 6-10 inclusive.

Referring to Figs. 1-5, in the particular em-' bodiment of the invention illustrated, the cam blank, such as that indicated at 1, is clamped t I, on a rotary spindle 9, iournalled' transversely the device shown 'journalled on the side of the carriage above said worm gear.

The carriage I0 is advanced with respect to the tool by special means adjustable to predetermine the cam curvature and shown as comprising a slide I6, mounted on the side of the carriage at 11, above the feed screw, having a gear or nut segment l8, engaging the feed screw and carrying an inclined track or cam rail l9. -In the present embodiment, the mechanism cooperating with the incline IQ for effecting advance of the car-,

riage l0: comprises a roller 20 which engages the incline I9 for relative movement longitudinally thereof. The roller 20 is carried on the end of an arm 2|, fixed on one end of a rock shaft 22,

carrying at its opposite end an arm 23, with a 'roller 24, engaging a fixed abutment 25 mounted on the base l2. It will therefore be seen that as the slide [6 is advanced, the roller 20 moves up the'incline l9 and this vertical movement is translated to a horizontal movement by means of the arm 2|, rock shaft 22 and arm 23 whose outer end is anchored on the fixed abutment 25 serving as a fixed fulcrum point or point of reaction caus- 'lng the carriage II) to be moved forward. This forward movement of the carriage Ill feeds the blank 1 laterally toward the tool l3.

The ratio of advance of the carriage with respect. to rotative movement of the cam blank carrier' is determined by the angle of inclination of the camtrack 19. The latter is shown as pivotally mounted at its lower forward end at 26, on the carrier slide l6, and as having its outer upper end adiustably clamped at 21, on a slotted segment 28, rising from the outer end of the slide. This segment is shown as carrying a scale 29, laid 01f infigures representing depth of cut in relation to angular advance of the cam blank, or otherwise, to assist in setting the track to accomplish the desired ratio of advance of the carriage in respect to rotation of the blank.

Further, to assist in setting the parts for the desired cam configuration, means is provided for determining the rotative position of the blank/I.

For example, the slide l6 may carry a longitudinal .33 mounted in a post 34,

the scale 33 and index 3I will indicate the angular or rotative position of the blank I.

The feed screw is shown as operable by a hand wheel 32.

The relatively fixed abutment 25, against which the rocker arm 23 pushes to advance the carriage is shown as adjustable by being carried by a screw fixed on the base, said screw having a finger wheel 35 for turning the same.

The machine may be built as a complete unit or be designed as an attachment to be mounted and used on other machines, for example, on a lathe. In the latter case, the cutter could be mounted in the head of the lathe and the abutment member be mounted in the tail stock, as by making the supporting member 34 for the screw 33with a tapered projection to lit in the socket the roller 23 will be brought against the incline I3 and thereafter the carriage I3 will be moved forward until the periphery of the cam blank I is moved into engagement with the cutting tool I3. This completes the setting of the machine for the example given.

The-tool I3 is then rotated and the blank 7 is fed angularly and laterally as follows: The pfor the lathe center, as indicated at 33 in Fig. 5. I

The slide carriage I3 is shown as having an angularly oflset base portion 31, slotted at 38, Fig. 2. for bolts which may be used for securing it down on the cross feed carriage of a lathe. when so used, the cross feed screw of the lathe carriage could be removed or disconnected, so as not to interfere with the progressive cross feed here illustrated.

To keep the angularly related arms 2| and 23 of the rocker effectively related to the inclined cam track I9, and the fixed abutment 25, the sliding carriage I3, may be tensioned outwardly as by spring 39, shown in Figs. 2, 8 and 4, as connected between the carriage slide stationary supporting base structure I2.

For purposes of facilitating an understanding of the manner in which the mechanism operates, an example of setting and operating the machine to cut a given'cam contour will be described following. For purposes of this description, it is noted that the Scale 33 is preferably divided into ten main parts each comprising ten sub-divisions; each sub-division representing /133 part of the angular or rotational movement of the cam blank I about its axis of rotation. Similarlythe quadrant scale 23 is divided into one hundred parts each representing /100 inch depth of cut radially of the cam blank I (i. e., corresponding tothe cam rise) for each /103 part of rotational or angular movement of the cam blank I about its axis of rotation.

Ormnon (Fibs. 1-5) v Assumingthatitisdesiredtocut thecamcurve for V4 of the cam circumference ("hm-and that a total depth of cut or cam rise of b inch (.60 inch) is desired: 'The incline I3 therefore is set at the second main division reading 2 and runs,

senting .02 inch as the increment of cut in a radial direction per /m of angular movement of the cam blank (1. e., .50 inch divided by 25 equals .02 inch) If desired, to facilitate timing, these cam blanks are divided into 100 equal angular II, and the relatively- -to effect rotary feed erator rotates the wheel 32 which rotates the worm screw [3, thereby driving the worm wheel I4, the spindle 9 and the blank I carried thereon of the blank 1. This causes a simultaneous and synchronous lateral movement of the blank I which is fed in the following manner. As the worm l5 rotates, it causes the worm block or screw I8 to move axially of the worm, carrying with it the slide I3 and attached incline [9. As the incline l9 moves forward, it imparts vertical movement to the roller 23 and this vertical movement raises the arm 2|, which through means of the rock shaft 22, moves the attached arm 23 in an anti-clockwise direction against the fixed abutment or reaction point 23. Since the rock shaft 22 is journalledin a portion fixed to the carriage I3, the carriage It is thereby fed to the left moving the cam blank I in a lateral direction toward the tool I3. The operator continues to rotate the wheel 32 until the indexpointer 3I (Fig. 4) reaches the reading 33 on the scale 33 whereupon the blank will have been rotated through l en of its complete rotational movement andthe total depth of cut, as predetermined by the setting of the incline I9, will have reached l-inch.

Embodiment of Figs. 6-10 inclusive This embodiment comprises basic features in common with the embodiment heretofore described and is essentially a. modification of said previously described embodiment.

Referring more particularly to Figs. 10; this embodiment is mounted on a standard I M comprising a base I32 and pedestal I33. The cutting or grinding tool in the present embodiment is shown as a cutting disk. or grinding wheel I34 which is carried directly on the drive shaft of an electric motor I35 secured on a suitable bracket arm I33 which is rigidly clamped on a vertical post I31 (Fig. 9) disposed in a split sleeve I33 formed integrally with the pedestal I33 and provided with a clamp screw I33 for holding the post I31 in the desired vertical and angular position. A work carriage H3 is mounted on the pedestal I33 for vertical movement with respect thereto by means of a dovetail portion III (Fig. 10), rigidly attached to the carparts and the cam curve may be positioned on the exact portion of the periphery of the blank desired. In the present example, we will assume that it is desired to have the camcurve extend,

- say, from the fifth angular divisional mark to the thirtieth angular divisional mark, so that the cam curve wfll extend /100 of the angular rotational movement. The hand wheel 32 is rotated until the fifth mark on the scale 33 comes opposite the index pointer 3|, the screw 33 being backed away to permit this setting; Then by the screw 33, by means of the knurled head 33,

(Figs. 6 and 10) riage H3 and positioned in a cooperating guideway H2 provided in the pedestal I33. The carriage H3 carries rotatably secured thereto (Figs. 9 and 13) a post or cam blank holder H3 whose inner end is suitably rotatably supported in a Journal member H4 which is rigidly secured. to the carriag III by suitable means such as screws H3. The holder H 3 is provided on its outer end with suitable means, such as knurled nut H3 and screw H'I, for securely clamping the cam The holder H3 carries rigidly secured thereto a worm wheel H3 which is in drivenengagement with the worm screw I23 which is rotatably fixed on a screw shaft IZI whose respectively opposite ends are rotatably journaled in and held against axial movement by the bearingblocks I22 and I23 rigidly secured to the carriage H3. The outer end of the screw shaft I2I carries fixed thereto a accuses disposed a carrier I21 which carries rigidly se- -cured thereto a screw block I28 which is in driven engagement with the screw shaft I2I. The carrier I2'I carries pivotally secured thereto, as at I23, one end of a cam track or inclined rail I30, the other end of which is in adjustable engagement with the quadrant arm I3I whose upper end is rigidly secured to the carrier I21. The quadrant I3I is provided with a slot-I32 through which extends a screw I33 which passes through,

the rail I30 and is provided with a wing nut I34 by means of which the rail may be clamped in adjusted position on the quadrant I3I. The quadrant is preferably provided with a scale I35 which in the present embodiment is divided into ten main divisions each of which is sub-divided into ten divisions so as to provide one hundred sub-divisions; and the rail I 30 is provided with an index pointer I36 cooperatively disposed with respect to the scale I35 for indicating the setting of the rail I30- From the foregoing it will be seen that as the screw I2I is rotated, the carrier I21 and. the rail or cam track I30 are moved in a horizontal directionv longitudinally of the carriage simultaneously and synchronously with the rotation of the cam blank H8.

The cam track or rail, I30 is provided with a follower or engagin member, which in the pres-,-

ent embodiment is in the form of a roller I31 rotatably carried on one endI38of a crank arm pivotally supported on the pedestal I03 by means of a screw I39.- The other end I40 of the said crank is positioned for engagement with the cooperating end of an adjustable screw MI in threaded engagement with a post I42 rigidly secured to the pedestal I03. Accordingly, when the follower or engaging roller I31 is in adjusted position against the inclined rail I 30, upon longitudinal movement of the rail I30 with respect to the carriage I I0, the rail I30 is thereby moved in a vertical direction with respect to the roller,

I31, thereby imparting vertical motion to the carriage I I 0 and cam blank I I8. From this it will be appreciated that rotation of the .hand wheel I24 serves to simultaneously and synchronously rotate for movement in'an angular direction and feed in a lateral direction the cam blank I I8 with respect to the cutting or forming tool I04; and the ratio of lateral feed to angular motion is determined by the angle of inclination at which the rail I30 is setv on the quadrant I3 I. This operation and function of the parts will be seen to be broadly the same as the operation previously described in,connect ion with the embodiment of Figs. linclusive, where rotation of the hand wheel 32 causes synchronous. and simultaneous angular and lateral movement of the cam blank I (Fig. 1), and where the ratio between said angular and-lateral movement is determined by the setting of the inclined rail or cam track I3 on the quadrant 28.

'li'he angular movement of the cam blank II8 may be conveniently indicated in the following manner, reference being ,had more particularly to Figs. 6, 7 and 8'. A worm wheel I43 is suita ly :Ioumaled on a stud screw I44 in rigid threaded engagement with the carriage IIO so that the worm wheel I43 is in driven engagement with the screw shaft I2I. A dialdrum I45 is loosely journaled on the stud I44 and is urged I toward the worm wheel I43 by means of a helical compression sprin I 46 whose inner end engages an anti-friction washer I4I seated against the carriage I I0 and whose outer end engages a similar anti-friction washer I48- seated against the hub of drum I45. A friction washer I49, such as leather, is interposed between the drum I45 and wheel I43 providing a friction drive which causes the drum to rotate with the wheel but permits manual setting of the drum with respect to the wheel when desired. The drum I45 carries on its periphery a scale I50 which in the present embodiment is divided into fifty divisions. In'the present embodiment, the wheel I43 has twenty-five teeth and the screw I2I has. fifty threads active in effecting one complete rotation of the cam blank-I I3, so that the drum I will make one complete rotation for each /2 rotation of the cam blank I I8. Since it is only rarely that the cam curve is to be cut for more than of the angular-rotation of the cam, the fifty divisions on the scale I will be sufficient for direct reading.

As in the case of the embodiment of Figs. 1-5, a linear scale may be employed if desirable to indicate the position of the carrier I2'I longitudinall of the carriage H0, and in Fig. 13 I have indicated such a scale divided into one hundred equal sub-divisions, with each sub-division representing ,1 angular movement of .the cam blank. Such a linear scale is not necessary in addition to the circular scale I50 above described except in connection with predetermined timing wherein it might be convenient (as described in connection with the embodiment of Figs. 1-5) to cut the cam curve at a predetermined point on the cam blank. I have also indicated in Fig. 13 the division of the scale I35 of the quadrant I3I into one hundred sub-divisions, each of which represents .0010 inch depth of cut per A part of the whole angular movev ment of the cam blank. Also in Fig. 14 I have illustrated diagrammatically that with the rail I30 set at the main division No.'-2, or twentieth subdivisiom-for each angular movement or rotation of the work, there will be a depth of cut (corresponding to the cam rise) of .020 inch;

' and this setting will be utilized in the examples vided for securing a scriber to the arm I06, so

that the point may be presented to the face of the blank II8 for the operation to be more particularly pointed out hereinafter.

The cutting tool or grinding wheel 104 should be dressed or set, so that the cutting portion is tangential to the cam surface to be formed (see Figs. 11 and 12).

It is within the contemplation of the invention that the surface of the cam track or rail I30 which engages the roller I31 may be curved or otherwise deviate from a straight line as shown.

' I OPERATION 3 (Figs. 6-14) Referring more particularly to Fig. 11, NM

indicates a cam blank and I04a indicates thecutting tool. The cam blank is shown as being sired cam contour I52.

divided into one hundred angular divisions III and line I52 designates the cam surface to be out, which it is assumed will extend in an angular direction 12% angular divisions with a total depth of cut at I53 of 54; inch (.25 inch). By dividing the depth of cut by the number of divisions, we get .020 as the amount of lateral movement the cam' blank is to be'fed per angular increment of movement, which is the setting .020

which is required on the quadrant I3I.

Before starting the cutting operation as shown in Fig. 11, the cam line I52 is preferably scribed on the blank by attaching a scriber as above mentioned so that its point is in the approximateplane of the face of a blank and above and in a plane passing through the axis of the blank. A blank is placed on the holder Ill (Figs. 6 and 9) and the hand wheel I24 is rotated so as to bring the division line I50 of the blank directly beneath and in register with the scriber point, the screw I4I isrotated to raise the carriage until the point comes into register with aseaocs ward direction by a spring or other auxiliary means as is well understood by those skilled in the art. -The operation as referred to in connection with Fig. 12 may of course be employed if desired in connection with the embodiment of the invention illustrated in Figs. 1-5; in which case the spring 39 is relied upon for the reverse 'feed of the carriage when the roller moves transverse direction. Accordingly, it will be ebthe lowermost part of the desired curve I52, or

conversely the scribe point may be lowered to a like position. The hand wheel I24 is now rotated in a clockwise direction, which imparts a clockwise rotation to the blank I I0a and simultaneously causes a movement of the carrier I2! and inclined rail I30 to the left, thereby laterally moving the blank II8a downwardly in the ratio predetermined by said setting of the cam track or rail I30 on the quadrant I3I. The rotation of the wheel I24 is continued until ,the line I52 has been completely scribed.

The blank is removed and the usual run-out hole I54 may be suitably formed and the blank is then rough cut, as indicated at I55, so to leave only a small amount of stock outside of the de- This rough cut may be conveniently made by a band saw or any other suitable means. The blank is then placed on the holder H3 (Figs. 6 and 9), the wheel I04a placed in position as shown, and the hand wheel I24 is rotated so as to bring the division line I53 of the blank directly beneath and in vertical register with the maximum diameter of the grinding wheel. Then with the grinding wheel placed in rotation, and by means of the screw I, the carriage H0 is raised until the low part of the cam curve adjacent thereto has been reached; the hand wheel I24 is thereupon rotated in a clockwise direction which causes a clockwise rotation of the blank Illa and simultaneously therewith a movement of the carrier I21 and inclined rail I30 to the left, thereby laterally moving the cam blank downwardly in the ratio predetermined by said setting of the incline I30 on the quadrant I3 I.

- here noted that with a grinding Fig. 12 shows the finishing cut as having progressed six angular diivsions of the desired 12 angular divisions of the cam blank H80. In this operation, the drum scale I50 of course will rotate in the reverse direction and accordingly the scale I50 should be set so that its flxed index pointer will be opposite 12 /2 at the commencement of the rotation of the hand wheel I24, and the rotation of the hand wheel I24 should cease when the scale I50 reaches its zero position (corresponding to 50"). In the embodiment shown in Figs. 6-10, in the operation Just referred to in connection with Fig. 12, the

vious that the incline and roller may be utilized in various ways, in order to effect the same result so long as the relative movement between these parts in, one direction causes a relative movement of these parts in a transverse direction, and this movement is suitably transmitted to cause corresponding movement of the cam blank in a lateral direction to effect the depth of cut in the desired ratio to angular movement of the blank, such ratio being determined by the degree of inclination of the inclined rail or track.

If a cam rise of a relatively small amount is desired, say .020" or .025" which does not permit a rough cut by a saw, then the entire cam surface cutting operation may be done on the,

machine in the manner now reference to Fig. 12.

Assume that the cam rise desired as at the division line I50 is .020" vand the angular extent of the cam surface is then the cam rail will be set at .020"+10=.002" or the second sub-division on the quadrant I3I. The cam line I51 is then scribed in the manner previously pointed out and a suitable run-out hole I58 provided if desired. With the blank on the holder II3 (Figs. 6 and 9) and the cutting tool in operative position the blank is fed as follows: It is wheel employed as a cutting tool it is desirable to limit a single cut to about .004-.005". Assuming that the cut is to be .004", then for .020" rise there would be required four cuts at the maximum depth of cut at I55, and accordingly successive angular movements i i-I55, B-I50, (3-455, D-ISG and Iii- I50. Therefore the cam blank is rotated until the division line A comes in vertical alignment with the edge of wheel I04b, then the blank raised until it just touches the wheel I04b, the hand wheel I24 is rotated in an anti-clockwise direction so as to cause the cam blank IIBb (Figs. 12 and 6) to rotate in an ant -clockwise direction and simultaneously to move the rail I30 to the rightto laterally feed the cam blank toward the cutting tool until the wheel reaches or Just passes I56; theblank is then rotated in the reto be described with verse direction and the point B brought into enmovement of the cam rail or track I30 to the left permits the carriage IIO to move downwardly under the force of gravity, which in the usual case will be sufilcient, but if desired the carriage 9 may of course be additionally urged in a downions uses to which the gagement with the wheel, the hand wheel I24 is again rotated in an anti-clockwise direction'until the out reaches I58; and successive cutssimilarly made starting at points C, D and E until the surface is finished. From the foregoing typical examples the varinvention may be put will be understood by those skilled in the art.

Having thus described my invention with particularity with reference to present preferred embodiments of the same. and having referred to some of the possible modifications thereof, it will be obvious to those skilled in the art, after unmy abutment, a rocker fulcrumed on said carerstanding my invention, that other changes nd modifications may be made therein without eparting from the spirit and scope of my invenlon, and I aim in the appended claims to cover uch changes and modifications. as are within 1 he scope of the invention.

What I claim is:

1. A cam producing machine, comprising in ombination, a cam outlining tool, a carriage novable toward said' tool, a relatively stationary lbutment, a rocker fulcrumed on said carriage .nd arranged by engagement with said abutment o efiect advance of said carriage-toward said tool, a cam blank carrier journaled on said car- 'iage to present a cam blank to said tool, a memier. shiftable on said carriage to actuate said poker and common means for rotating said )lank carrier and shifting said member.

2. A cam producing machine, comprising in :ombination, a cam, outlining tool, a carriage :novable toward said tool, a relatively stationary abutment, a rocker fulcrumed on said carriage. and arranged by engagement with saidabutment to effect advance of said carriage toward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a member shiftable on said carriage to" actuate said rocker and common means for rotating said blank carrier and shifting said member, including a feed screw and companion screw connections therefrom to said blank carrier and to said member.

3. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker fulcrumed on said carriage.

and arranged by engagement with said abutment to effect advance of said carriage toward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a

and arranged by said tool, a cam blank carrier a cam blank to said tool, a

rlage and arranged by engagement with said abutment to effect advance of said carriage to-. ward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a member shiftable on said carriage to acuate said rocker, common means for rotating said blank carrier and shifting said member and means adjustably mounting said relatively sta-,v tionary abutment for movement away rocker.

7. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker fulcrumed-on said carriage engagement with said abutment to effect advance of said carriage toward journaled on said carriage to present member shiftable on said carriage to actuate said rocker, common means for rotating said blank carrier and shifting said member, said rocker including a rock shaft and angularly related.

lever arms projecting therefrom, one into engagement with said abutment and the other in position for engagement by said shiftable member.

8. -A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker fulcrumed on said carriage, and arranged by engagement with said abutment to effect advance of said carriage toward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a

member shiftable on said carriage to actuate said rocker, common means for rotating said blank carrier and shifting said member, said rocker including pivotally supported angularly remember shiftable on said carriage to actuate said rocker and common means for rotating said blank carrier and shifting said member, said member including a wedging element adjustable to various inclines.

4. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker fulcrumed on said carriage and arranged by engagement with said abutment to effect advance of said carriage toward said tool, a cam blank carrier joumaled on said carriage to present a cam blank to said tool, a member shiftable on said carriage to actuate said rocker, common means for rotating said blank carrier and shifting said member, said member including a track pivoted to stand at various inclines and said rocker having a part engageable by said track.

5. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward saidtool, a relatively stationary abutment, a rocker fulcrumed on said carriage 'and arranged by. engagement with said abutment to effect advance of said carriagetoward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a

member shiftable on said carriage to actuate said rocker, common means for rotating said blank carrier and shifting said member and means for holding the carriage with said rocker engaged with said abutment.

6. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationsaidtool, a cam blank carriage to present a cam blank to said tool, a. member shiftable on said carriage to actuate lated rock arms, one engageable with said relatively stationary abutment and the other engageable by said shiftable member.

9. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker -fulcrumed on said carriage and arranged by engagement with said abutment to effect advance of said carriage toward said tool, a cam blank carrier journaled on said carriage to present a cam blank to said tool, a member shiftable on said carriage to actuatesaid rocker, common means for rotating said blank carrier and shifting said member,- said member including an adjustable slide and a cam track on said slide adjustable to various inclines in respect to said rocker.

10'. A cam producing machine, comprising in combination, a cam outlining tool, a carriage movable toward said tool, a relatively stationary abutment, a rocker fulcrumed on said carriage and arranged by engagement with said abutment to efiect advance of said carriage toward carrier iournaled on said said rocker, common means for rotating said blank carrier and shifting said member, said member including a cam track engageable with said rocker and means for effecting the positioning of said cam track in variously inclined relations to said rocker.

11. A cam producing machine, comprising in combination, a cam outlining tool, a slide carriage movable toward and away from said tool,

a shait Journaled on said carriage, rock levers I from said carriage, a cam blank carriage including 6 projecting from said shaft, a relatively stationary abutment positioned for engagement by one of said rock levers, a slide adjustable on said carriage, a cam track adjustable to various inclines on said slide and engageable by one of said rock levers, a cam blank carrier joumaled on said carriage and a feed screw operable torotate said cam blank carrier and to shift said slide.

12. A cam producing machine, comprising a carriage, a cam blank carrier rotatably mounted on said carriage, a carrier mounted for longitudinal travel on said carriage, means for iongitudinally advancing said last mentioned carrier and for rotating said cam blank carrier, scale means -for indicating the longitudinal advance of said longitudinally movable carrier, a camtrack on said longitudinally movable carrier and adjustableto various inclines, scale means associated with said angularly adjustable cam track, an abutment relatively stationary in re-- spect to said carriage and a rocker journaled on the carriage and having one arm engageable by said cam track and another arm engageable with said abutment.

13. A cam producing machine, comprising a carrier rotatably mounted on said carriage, a carrier mounted for longitudinal travel on said carriage, means for longitudinally advancing said last mentioned carrier and for rotating said cam blank carrier, a cam track on said longitudinally movable carrier and adjustable to various inclines, and means for feeding said carriage including a part movable along said cam track incline, whereby upon longitudinal advance of said carrier said carriage is fed forward by longitudinal movement of said cam track incline and said cam blank carrier is rotated.

14. A cam producing machine, comprising a 0 carriage, a cam blank carrier rotatably mounted on said carriage, a carrier mounted for longitudinal travel on said carriage, means for longitudinally advancing said last mentioned carrier and for simultaneously and synchronously rotating said cam blank carrier, scale means for indicating the rotational movement of said blank carrier, a cam track on said longitudinallymovable carrier and adjustable to various inclines, scale means associated with said angularly adjustable cam track, and means for feeding said a part movable along said cam track incline, whereby upon longitudinal advance of said carrier said carriage is fed forward by longitudinal movement of said cam track and said cam blank carrier is in synchronism therewith. 1

15. A cam forming machine comprising a cam outlining tool, a carriage mounted for movement toward said tool, a cam blank holder rotatably joumaled on said carriage, whereby a cam blank carried on said holder is circumferentially and laterally movable relative to said tool, means for rotating said blank holder 'to eflect said circum-" ferential movement, mechanism for moving said carriage toward said tool comprising an inclined first member and a second member engaging said first member, one of said members being mounted on said carriage for horizontal movement relative to the other member, one of. said members being movable in a vertical direction relative to the other of said members and. being secured to said carriage for imparting feeding movement thereto upon relative movement of said engaging member along said incline.

simultaneously rotated on said carriage,

16. A cam forming machine comprising a. cam outlining tool, a carriage mounted for movement toward said tool, a cam blank holder rotatably journaled on said carriage, whereby a. cam blank carried on said holder is circumferentially and laterally movable relative to said tool, means for rotating said blank holder to effect said circumferential movement, an inclined track and a track followermounted for relative movement in a first direction along said track, means for effecting said first directional movement simultaneously and synchronously with said rotational movement of said blank holder, said track and follower being relatively movable in a direction transverse to said first directional movement to provide a feeding force, means for translating said feeding force into movement ofsaid carriage to thereby feed said holder laterally, said incline serving to determine the ratio between rotational and lateral movement of said cam blank, and means for adjusting the inclination of said track to vary said ratio.

17. A cam forming machine comprising a cam outlining tool, a carriage mounted for movement toward said tool, a cam blank holderrotatably iournaled on said carriage, whereby a cam blank carried on'said holder is circumferentially and laterally movable relative to said tool, means for rotating said blank holder to efiect said circumferential movement, an inclined track and a track follower mounted for relative movement in a first direction along said track, means for effecting said first directional movement simultaneously and synchronously with said rotational movement of said blank holder, said track and follower being relatively movable in a direction transverse to said first directional movement to provide a feeding force, and means for translating said feeding force into movement of said carriage to thereby feed said holder laterally.

18. A cam producing machine, comprising a carriage, a cam blank carrier rotatably mounted on said carriage, a carrier mounted for longitudinal travel on said carriage, means for longitudinally advancing said last mentioned carrier and for rotating said cam blank carrier, scale means for indicating the longitudinal advance of said longitudinally movable carrier, a camtrack member on said longitudinally movable carrier and adjustable to various inclines, scale means associated with said angularly adjustable cam track member, and a cam track engaging member, one of said members being anchored to a relatively stationary part in respect to said carriage, and the other of said members being secured to said carriage for movement therewith in one direction of movement, whereby upon longitudinal advance of said carrier said carriage is fed forward by relative longitudinal movement between said cam track and its engaging member.

19. A cam producing machine, comprising a carriage, a cam blank carrier rotatably mounted a carrier mounted for longitudinal travel on said carriage, means for longitudinally advancing said last mentioned carrier and for rotating said cam blank carrier, scale means for indicating the longitudinal advance of said longitudinally movable carrier, a cam scale means associated with said angularly adjustable cam track,

and a relatively fixed roller incline is movable, whereby advance of said carrier said carriage is fed foralong which said upon longitudinal ward by relative longitudinal movement between 'the path of movement of said incline member said cam track and said fixed roller. when the latter is moved in the horizontal direc- 20. Amachine of the character described, comtion, whereby horizontal movement of said in- I prising a relatively ilxedstandard, a. cam cutting cline member relative to said fixed member pro- I member rotatably mounted on said standard, a 5 duces vertical movement of said carriage and cam carriage mounted on said standard for vertical blank holder, means for simultaneously rotating movement relative thereto, a cam blank carrier said blank carrier holder and moving said incline joumaled on said carriage to present a. cam to member horizontally relative to said carriage,

said tool, an incline member mounted on said whereby the cam blank carried on said holder is carriage for horizontal movement relative to said 10 an l rly and l ly mo b i h r p to carriage andmovable with said carriage in a versaid cutting tool.

tical direction relative to said standard, a rela- I GEORGE ANTOS. tively fixed abutment carried on said standard in 

